2015年10月20日星期二

How do living things deal with great changes?

Svientists have done a research about a small freshwater plant that has evolved to live in harsh seawater. It helps scientists to know how living things adapt to changes in their environment.
The results could help scientists better understand how species have been able to adapt to major shifts of circumstances in the past, such as transferring from water to land, or from light to dark environments.
To adapt new surroundings, organisms must develop ways to perform everyday functions, such as securing food and oxygen, and reproducing. The latest study is one of the first to track such a significant lifestyle transition in the lab, but not rely on fossil clues.
Researchers studied successive generations of a common freshwater algae, Chlamydomonas reinhardtii, in increasingly salty water. These plants have a key role in providing nutrients and removing carbon dioxide from the atmosphere, so understanding how they can evolve from freshwater to seawater is benefit for understanding of the history and diversity of life on Earth.
The scientists found that freshwater algae adapted to seawater in two stages. In the initial time, the plant was able to switch on genes that helped it tolerate low salt levels. Later, as salt levels increased, changes enabled those genes to stay switched on - indicative of a process known as epigenetics.
Later, random changes in the DNA itself during reproduction gave rise to individuals that could tolerate even higher levels of salt. As the algae multiplied, these genes became commonplace in the population, enabling the plant to thrive in seawater. The findings show the importance of genetic and epigenetic changes in adapting to new environments.
Josianne Lachapelle, who led the study, is from the University of Edinburgh's School of Biological Sciences, said: "Our approach enables a new way to understand how living things evolve new ways of life during major transitions. Our findings have significant potential for revealing more about the processes that underpin change during evolution."
The study was published in Evolution. It was carried out by the University of Edinburgh and McGill University in Canada, and supported by the Natural Sciences and Engineering Research Council in Canada.
Refer to this link:http://www.cusabio.com/ELISA-Kit/Human-Interleukin-18IL-18-ELISA-KIT-11090105.html

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